Smart real-time healthcare monitoring and tracking system using GSM/GPS technologies

Aziz, Kahtan; Tarapiah, Saed; İsmail, Salah Haj; Atalla, Shadi

doi:10.1109/icbdsc.2016.7460394

Cited by 95 publications

(46 citation statements)

References 1 publication

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“…The battery life time of the proposed monitoring system using Equation (6) could be extended to 374.855 h instead of 8 h when the traditional operation was used instead. We also compared the power consumption of the proposed monitoring system based on the sleep/wake scheme to the sixteen existing studies that employed different non-contact technologies such as GSM modem, ZigBee, and Bluetooth to communicate the vital signs of the patients [64][65][66][67][68][69][70][71][72][73][74][75][76][77][78][79]. The power consumption of different medical applications dissimilar to the breathing syndromes was considered for comparison because there are no previous studies similar to the current work focused on energy consumption.…”

Section: Results For Power Consumptionmentioning

confidence: 99%

A System for Monitoring Breathing Activity Using an Ultrasonic Radar Detection with Low Power Consumption

Al-Naji

Al-Askery

Gharghan

et al. 2019

JSAN

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Continuous monitoring of breathing activity plays a major role in detecting and classifying a breathing abnormality. This work aims to facilitate detection of abnormal breathing syndromes, including tachypnea, bradypnea, central apnea, and irregular breathing by tracking of thorax movement resulting from respiratory rhythms based on ultrasonic radar detection. This paper proposes a non-contact, non-invasive, low cost, low power consumption, portable, and precise system for simultaneous monitoring of normal and abnormal breathing activity in real-time using an ultrasonic PING sensor and microcontroller PIC18F452. Moreover, the obtained abnormal breathing syndrome is reported to the concerned physician’s mobile telephone through a global system for mobile communication (GSM) modem to handle the case depending on the patient’s emergency condition. In addition, the power consumption of the proposed monitoring system is reduced via a duty cycle using an energy-efficient sleep/wake scheme. Experiments were conducted on 12 participants without any physical contact at different distances of 0.5, 1, 2, and 3 m and the breathing rates measured with the proposed system were then compared with those measured by a piezo respiratory belt transducer. The experimental results illustrate the feasibility of the proposed system to extract breathing rate and detect the related abnormal breathing syndromes with a high degree of agreement, strong correlation coefficient, and low error ratio. The results also showed that the total current consumption of the proposed monitoring system based on the sleep/wake scheme was 6.936 mA compared to 321.75 mA when the traditional operation was used instead. Consequently, this led to a 97.8% of power savings and extended the battery life time from 8 h to approximately 370 h. The proposed monitoring system could be used in both clinical and home settings.

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Section: Results For Power Consumptionmentioning

confidence: 99%

A System for Monitoring Breathing Activity Using an Ultrasonic Radar Detection with Low Power Consumption

Al-Naji

Al-Askery

Gharghan

et al. 2019

JSAN

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“…In [12], using a specific sensor, the data will be captured and compared with a configurable threshold via microcontroller which is defined by a specialized doctor. In case of emergency a short message service (SMS) will be sent to the Doctor's mobile number along with the measured values through GSM module.…”

Section: Related Workmentioning

confidence: 99%

Wireless Wearable Smart Healthcare Monitoring using Android

Mahadevaswamy¹

2018

IJCNIS

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Abstract-The healthcare monitoring system is very useful for the old age people, cardiac vascular endues and many others for observing vital parameters like blood pressure, heart rate, pulse rate, body temperature etc. The proposed work utilizes 8bit X-Mega2560 microcontroller with an application created for overseers and hospital to constantly watch the patient's parameters from their home, hospitals etc. The proposed system senses the vital parameters of the patients and sends an alert message to respective caretakers, through Wi-Fi which utilizes COAP conventions. These models are integrated to a simple arduino uno microcontroller to exhibit different functionalities. The system will reduce the cost, empowering the patients who are not able to consult the doctors for diagnosis and also minimize the patient's transportations. This system will bridge the gap between patient and doctor in real time.

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“…The experimental setup consists on the Arduino UNO R3 board, Ultrasonic Sensors and Servo motor. The detailed description of the hardware components is given below [2] Arduino UNO R3. UNO, an Italian word, meaning 'one' is used to assign the Arduino software (1.0).…”

mentioning

confidence: 99%

“…If the data is transferred by the USB-to-serial chip and USB connection to the computer, the RX and TX LEDs on the board will flash; keeping in consideration that the discussed method cannot be applied for serial communication on UNO's digital pins. In the case of serial communication, a Software Serial library is installed which permits such kind of communication on any of the UNO's digital pins like 0 and 1 [2] SPI communication and I2C (TWI) are also supported by the ATmega328. SPI communication is made possible with the help of SPI library while the usage I2C bus is made possible a Wire library included in the Arduino Software (IDE).…”

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confidence: 99%

Designing of Low Cost Arduino Based Ultrasonic SONAR System

Murtaza

Imtiaz

2017

VFAST trans. softw. eng.

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Sonar (Sound Navigation and Ranging) was covertly created by few countries during the reign of World War II. SONAR can be used to detect some moving object. It helps in the measurement of distance and angle from the observer. It works on the principle of Doppler shift. The designing of cheaper SONAR system for security purpose is the requirement of an industry. In this research Paper, the designing and implementation of Arduino based SONAR system using ultrasonic sensor are presented. The device is able to detect the object, calculate its distance (up to 30cm) and can determine the elevation angle. It provides a cheaper solution for security purposes.

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Smart real-time healthcare monitoring and tracking system using GSM/GPS technologies

Cited by 95 publications

References 1 publication

A System for Monitoring Breathing Activity Using an Ultrasonic Radar Detection with Low Power Consumption

A System for Monitoring Breathing Activity Using an Ultrasonic Radar Detection with Low Power Consumption

Wireless Wearable Smart Healthcare Monitoring using Android

Designing of Low Cost Arduino Based Ultrasonic SONAR System

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